A comparative evaluation of open loop and closed loop drug administration strategies in the treatment of AIDS.

Nenhuma Miniatura disponível




Caetano, M. A.
Yoneyama, T.

Título da Revista

ISSN da Revista

Título de Volume



In recent years, many researchers in the field of biomedical sciences have made successful use of mathematical models to study, in a quantitative way, a multitude of phenomena such as those found in disease dynamics, control of physiological systems, optimization of drug therapy, economics of the preventive medicine and many other applications. The availability of good dynamic models have been providing means for simulation and design of novel control strategies in the context of biological events. This work concerns a particular model related to HIV infection dynamics which is used to allow a comparative evaluation of schemes for treatment of AIDS patients. The mathematical model adopted in this work was proposed by Nowak & Bangham, 1996 and describes the dynamics of viral concentration in terms of interaction with CD4 cells and the cytotoxic T lymphocytes, which are responsible for the defense of the organism. Two conceptually distinct techniques for drug therapy are analyzed: Open Loop Treatment, where a priori fixed dosage is prescribed and Closed Loop Treatment, where the doses are adjusted according to results obtained by laboratory analysis. Simulation results show that the Closed Loop Scheme can achieve improved quality of the treatment in terms of reduction in the viral load and quantity of administered drugs, but with the inconvenience related to the necessity of frequent and periodic laboratory analysis.



anti human immunodeficiency virus agent, acquired immune deficiency syndrome, biological model, comparative study, computer simulation, drug administration, human, Acquired Immunodeficiency Syndrome, Anti-HIV Agents, Computer Simulation, Drug Administration Schedule, Humans, Models, Biological

Como citar

Anais da Academia Brasileira de Ciencias, v. 71, n. 4 Pt 1, p. 589-597, 1999.